CN111086320B - Safety helmet printing device - Google Patents

Abstract

The invention relates to the technical field of safety helmet manufacturing, in particular to a safety helmet printing device. The invention aims to provide a helmet printing device which can uniformly coat ink, ensures the printing effect and quality, is easy to operate and has high printing efficiency. The technical scheme of the invention is as follows: a safety helmet printing device comprises a frame, a mounting plate, a motor, a gear, an arc-shaped plate, a vertical arm and the like; the rack is provided with a mounting plate, a motor is mounted on one side face of the mounting plate, a gear is arranged on an output shaft of the motor through a rotating shaft, and an arc-shaped plate is arranged on one side face of the mounting plate. According to the invention, the gear is driven to rotate by the motor, the gear drives the rack to move leftwards, the transverse movable rod drives the ink coating mechanism to move leftwards through the cylindrical movable rod to uniformly coat ink on the printing module, characters and patterns on the printing module are automatically printed on the safety helmet, the printing efficiency is high, and the printing effect is good.

Description

Safety helmet printing device

Technical Field

The invention relates to the technical field of safety helmet manufacturing, in particular to a safety helmet printing device.

Background

The helmet is generally printed with marks and characters to illustrate the appearance of the helmet or to enhance the advertising effect. The printing of current safety helmet needs operating personnel to place the printing module on the safety helmet, then operating personnel adds printing ink on the printing module, uses a brush section of thick bamboo to evenly brush the printing ink of printing module, and printing ink brushes on the safety helmet through the module hole of printing module, and artifical manual printing speed that carries on is slow, and work efficiency is low, and the position of printing at every turn can be inconsistent moreover, influences the quality of production, has the inhomogeneous phenomenon of printing simultaneously. Therefore, there is a need to develop a printing device for safety helmet, which can uniformly apply ink, ensure the printing effect and quality, and has easy operation and high printing efficiency.

Disclosure of Invention

In order to overcome the defects that the printing of the existing safety helmet printing technology equipment is complex and tedious to use, the printing effect is poor, and the printing quality of characters and patterns of the safety helmet is influenced, the technical problem is to provide a safety helmet printing device which can uniformly paint ink, ensure the printing effect and quality, and is easy to operate and high in printing efficiency.

The technical scheme of the invention is as follows: a safety helmet printing device comprises a rack, a mounting plate, a motor, a gear, an arc-shaped plate, vertical arms, fixed sliding sleeves, a transverse movable rod, a rack, a first elastic part, a cylindrical sliding sleeve, a cylindrical movable rod, a second elastic part, an extrusion small wheel, an ink coating mechanism, an extrusion plate and a printing module, wherein the mounting plate is arranged on the rack, the motor is arranged on one side face of the mounting plate, the gear is arranged on an output shaft of the motor through a rotating shaft, the arc-shaped plate is arranged on one side face of the mounting plate, two vertical arms are arranged on two sides of the arc-shaped plate, two fixed sliding sleeves are arranged at one ends of the two vertical arms, a transverse movable rod is arranged in the fixed sliding sleeves in a sliding mode, the rack meshed with the gear is arranged at one end of the transverse movable rod, a first elastic part is arranged between one side of each fixed sliding sleeve and one end of the transverse movable rod, and the transverse movable rod penetrates through the first elastic part, be provided with a cylindricality sliding sleeve on the horizontal movable rod, cylindricality sliding sleeve internal sliding type is provided with the cylindricality movable rod, be provided with between the one end of cylindricality sliding sleeve and the one end of cylindricality movable rod and pass elastic component two and the cylindricality movable rod passes elastic component two, the one end of cylindricality movable rod is provided with the extrusion steamboat with the arc contact, the other end of cylindricality movable rod is provided with scribbles black mechanism, the other end of horizontal movable rod is provided with the stripper plate, a side of stripper plate is provided with extrusion mechanism, extrusion mechanism's one end is provided with the printing module that is located the frame top.

As preferred, scribble black mechanism and include linking arm, guide arm, elastic component three, bull stick, installation pole and paint the wheel, the one end of cylindricality movable rod is provided with the linking arm, a tip of cylindricality movable rod is provided with elastic component three, the one end of linking arm has been seted up a guiding hole and the guiding hole internal sliding type and has been provided with the guide arm, the one end and the elastic component three of guide arm are connected, a round hole and round hole internal rotation formula are seted up to the other end of guide arm and have been provided with the bull stick, the both ends rotary type of bull stick is connected with two sets of parallel design's installation pole, and is two the one end rotary type of installation pole is provided with two and paints the wheel, two paint a side contact of wheel and printing module.

Preferably, the extrusion mechanism includes extrusion sliding sleeve, extrusion movable rod, extrusion elastic component, installation piece and activity steamboat, a side of fixed sliding sleeve is provided with the extrusion sliding sleeve, the slidingtype is provided with the extrusion movable rod in the extrusion sliding sleeve, the one end of extrusion movable rod is provided with the installation piece, be provided with the extrusion elastic component between the one end of installation piece and extrusion sliding sleeve and extrude the movable rod and pass the extrusion elastic component, the one end of installation piece is provided with the activity steamboat with a side contact of stripper plate.

As preferred, still including storage case, hourglass material pipe, unloading movable rod, unloading elastic component, unloading sliding sleeve, fixed block, unloading gyro wheel, round bar and unloading lug, a side at the mounting panel is installed to the storage case, a side of storage case is provided with the hourglass material pipe, be provided with an unloading lug on the stripper plate, an unloading movable rod is installed to a side of storage case, the one end of unloading movable rod is provided with the unloading sliding sleeve, be provided with unloading elastic component and unloading movable rod and pass the unloading elastic component between the one end of unloading sliding sleeve and the one end of unloading movable rod, a side of unloading sliding sleeve is provided with the fixed block, the one end rotary type of fixed block is provided with the unloading steamboat a side of fixed block is provided with two round bars, two the one end of round bar is provided with the fixed block that touches with the hourglass material pipe.

Preferably, the mounting rod further comprises connecting strips and movable elastic pieces, two connecting strips are arranged between the two groups of mounting rods, and the two connecting strips are provided with the movable elastic pieces connected with the end parts of the guide rods.

Compared with the prior art, the invention has the following advantages: 1. the motor drives the gear to rotate to drive the extrusion mechanism to move downwards, the extrusion mechanism drives the printing module to move downwards to be in contact with the safety helmet and drives the ink coating mechanism to move leftwards, the coating wheel can uniformly coat ink flowing out of the leakage pipe onto the printing module, and the movable elastic piece is arranged on the ink coating mechanism to enable the coating wheel to be tightly attached to the printing module, so that the printing effect and the quality of the safety helmet are improved.

2. The printing ink supply device disclosed by the invention has the advantages that the printing ink required to be used in printing is put into the storage box and then flows onto the printing module through the material leakage pipe, and meanwhile, the discharging stop block can control the flowing-out of the printing ink in time, so that the amount of the printing ink applied each time is consistent, and the waste of the printing ink is avoided.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic partial perspective view of a first embodiment of the present invention.

Fig. 4 is a second partial perspective view of the present invention.

Fig. 5 is a third partial perspective view of the present invention.

Fig. 6 is a schematic view of a fourth partial perspective structure of the present invention.

Fig. 7 is a schematic perspective view of the ink applying mechanism of the present invention.

Number designation in the figures: 1. the printing machine comprises a machine frame, 2, a mounting plate, 3, a motor, 4, a gear, 5, an arc-shaped plate, 6, a vertical arm, 7, a fixed sliding sleeve, 8, a transverse movable rod, 9, a rack, 10, a first elastic part, 11, a cylindrical sliding sleeve, 12, a cylindrical movable rod, 13, a second elastic part, 14, an extruding small wheel, 15, an ink coating mechanism, 151, a connecting arm, 152, a guide rod, 153, a third elastic part, 154, a rotating rod, 155, a mounting rod, 156, an applying wheel, 16, an extruding mechanism, 161, an extruding sliding sleeve, 162, an extruding movable rod, 163, an extruding elastic part, 164, a mounting block, 165, a movable small wheel, 17, an extruding plate, 18, a printing module, 19, a storage box, 20, a material leaking pipe, 21, a discharging movable rod, 22, a discharging elastic part, 23, a sliding sleeve, 24, a fixed block, 25, a discharging small wheel, 26, a round rod, 27, a discharging block, 28, 29, a connecting strip, 30. a movable elastic member.

Detailed Description

The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which presently preferred embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided for completeness and fully convey the scope of the invention to the skilled person.

Example 1

A safety helmet printing device is disclosed, referring to fig. 1 and fig. 2, comprising a frame 1, a mounting plate 2, a motor 3, a gear 4, an arc-shaped plate 5, a vertical arm 6, a fixed sliding sleeve 7, a horizontal movable rod 8, a rack 9, an elastic member I10, a cylindrical sliding sleeve 11, a cylindrical movable rod 12, an elastic member II 13, an extrusion small wheel 14, an ink coating mechanism 15, an extrusion mechanism 16, an extrusion plate 17 and a printing module 18, wherein the frame 1 is provided with the mounting plate 2, the right part of the bottom side surface of the mounting plate 2 is provided with the motor 3, the output shaft of the motor 3 is provided with the gear 4 through a rotating shaft, the middle part of the bottom side surface of the mounting plate 2 is provided with the arc-shaped plate 5, the middle parts of two sides of the arc-shaped plate 5 are fixedly provided with two vertical arms 6, the bottom ends of the two vertical arms 6 are fixedly provided with two fixed sliding sleeves 7, and two fixed sliding horizontal movable rods 8 are sleeved in the fixed sliding sleeves 7, the transverse movable rod 8 can move left and right in the fixed sliding sleeve 7, a rack 9 meshed with the gear 4 is arranged at the right end of the transverse movable rod 8, an elastic part I10 is arranged between the right side of the fixed sliding sleeve 7 and the right end of the transverse movable rod 8, the transverse movable rod 8 penetrates through the elastic part I10, the elastic part I10 in the embodiment is a return spring, and a cylindrical sliding sleeve 11 is arranged on the transverse movable rod 8;

the cylindrical sliding sleeve 11 is located at the middle position of the transverse movable rod 8 and is close to a fixed sliding sleeve 7, a cylindrical movable rod 12 is sleeved in the cylindrical sliding sleeve 11 in a sliding manner, the cylindrical movable rod 12 can move up and down in the cylindrical sliding sleeve 11, an elastic part two 13 is arranged between the bottom end of the cylindrical sliding sleeve 11 and one end of the cylindrical movable rod 12, the cylindrical movable rod 12 penetrates through the elastic part two 13, the elastic part two 13 is a first reset spring in the embodiment, an extrusion small wheel 14 in contact with the arc-shaped plate 5 is arranged at the upper end of the cylindrical movable rod 12, the extrusion small wheel 14 can move left and right along the inner side of the arc-shaped plate 5, an ink coating mechanism 15 is arranged at the bottom end of the cylindrical movable rod 12, an extrusion plate 17 is arranged at the left end of the transverse movable rod 8, the extrusion plate 17 is located at the front sides of the two vertical arms 6 and the cylindrical movable rod 12, an extrusion mechanism 16 is arranged on the bottom side surface of the extrusion plate 17, the lower end of the pressing mechanism 16 is provided with a printing module 18 located above the machine frame 1. Characters and patterns are arranged on the printing module 18, and after ink is smeared, the characters and the patterns are automatically printed on the safety helmet.

In actual operation, when characters and patterns need to be printed on the surface layer of the safety helmet, the manual work needs to install the printing module 18 with the characters and the patterns at the lower end of the extruding mechanism 16, the safety helmet needing to be printed and processed is placed on a flat plate table of the machine frame 1, so that the safety helmet is just positioned below the printing module 18, then a worker starts the motor 3 to rotate anticlockwise, the gear 4 rotates anticlockwise, the rack 9 meshed with the gear 4 moves leftwards, the rack 9 drives the transverse movable rod 8 to move leftwards, and the transverse movable rod 8 drives the cylindrical sliding sleeve 11 and the extruding plate 17 to move leftwards. The extrusion plate 17 moves leftwards to drive the extrusion mechanism 16 to move downwards, and the extrusion mechanism 16 drives the printing module 18 to move downwards to contact with the helmet. The cylindrical movable rod 12 in the cylindrical sliding sleeve 11 drives the extrusion small wheel 14 to move leftwards along the arc-shaped plate 5, meanwhile, the cylindrical movable rod 12 drives the ink coating mechanism 15 to move leftwards along the printing module 18, a worker adds a proper amount of ink into the groove body on one side of the printing module 18, the ink falls into the printing module 18, and the ink coating mechanism 15 performs uniform coating operation on the ink on the printing module 18. Characters and patterns on the printing module 18 can be automatically printed on the safety helmet, so that the operation is convenient, and the printing efficiency is high.

After the printing operation of the safety helmet is finished, when a worker starts the motor 3 to rotate clockwise, the gear 4 rotates clockwise, the rack 9 meshed with the gear 4 moves rightwards to reset, the rack 9 drives the transverse movable rod 8 to move rightwards to reset, the transverse movable rod 8 drives the cylindrical movable rod 12 and the extrusion plate 17 to move rightwards to reset, the cylindrical movable rod 12 drives the ink coating mechanism 15 to move rightwards to reset, the extrusion plate 17 does not extrude the movable small wheel 165, the extrusion elastic piece 163 stretches upwards to reset, the whole extrusion mechanism 16 moves upwards to reset, the extrusion movable rod 162 drives the printing module 18 to move upwards to reset, and the worker can take out the safety helmet which is printed under the printing module 18. After the work is finished, the worker turns off the motor 3, the operation is repeated, the printing processing of marks can be carried out on a large number of safety helmets, the operation is simple and fast, and the printing effect is good.

Example 2

Referring to fig. 3, the present embodiment is different from embodiment 1 mainly in that, the ink applying mechanism 15 includes a connecting arm 151, a guide rod 152, three elastic members 153, a rotating rod 154, a mounting rod 155 and two applying wheels 156, the connecting arm 151 is disposed on the right side surface of the lower end of the cylindrical movable rod 12, the three elastic members 153 are disposed in the middle of the bottom end of the cylindrical movable rod 12, the three elastic members 153 are second return springs in the present embodiment, a guide hole is formed in the bottom end of the connecting arm 151, the guide rod 152 is slidably disposed in the guide hole, the guide rod 152 can move up and down in the guide hole, the upper end of the guide rod 152 is connected to the three elastic members 153, the rotating rod 154 is rotatably disposed in a circular hole formed in the lower end of the guide rod 152, two parallel mounting rods 155 are rotatably connected to two ends of the rotating rod 154, two applying wheels 156 are rotatably disposed at one end of two mounting rods 155 through a rotating shaft, the two smearing wheels 156 are in contact with the upper side of the printing module 18 for the uniform smearing operation of the ink on the printing module 18.

In actual operation, when the worker starts the motor 3 to rotate counterclockwise, the gear 4 rotates counterclockwise, the rack 9 engaged with the gear 4 moves leftward, the rack 9 drives the horizontal movable rod 8 to move leftward, the horizontal movable rod 8 drives the cylindrical sliding sleeve 11 to move leftward, the cylindrical movable rod 12 in the cylindrical sliding sleeve 11 drives the small extrusion wheel 14 to move leftward along the arc-shaped plate 5, and meanwhile, the cylindrical movable rod 12 drives the inking mechanism 15 to move leftward along the printing module 18. The left moving smearing wheel 156 will smear the ink on the printing module 18 evenly, and at this time, the characters and patterns smeared by the ink on the printing module 18 will be printed on the surface of the helmet automatically, completing the smearing printing work.

Further, referring to fig. 4, the extruding mechanism 16 includes an extruding sliding sleeve 161, an extruding movable rod 162, an extruding elastic member 163, an installing block 164 and a movable small wheel 165, two are disposed on the front side of the fixed sliding sleeve 7, two extruding sliding sleeves 161 are slidably disposed on the inner side of the extruding sliding sleeve 161, two extruding movable rods 162 can move up and down in the two extruding sliding sleeves 161, two are disposed on the upper end of the extruding movable rod 162, and two installing blocks 164 are disposed below the extruding plate 17, two are disposed between the installing block 164 and the upper end of the extruding sliding sleeve 161, and the extruding elastic member 163 and the extruding movable rod 162 penetrate through the extruding elastic member 163, in this embodiment, the extruding elastic member 163 is an extruding spring, and two are disposed on one end of the installing block 164, and the movable small wheel 165 is disposed on one side of the extruding plate 17.

In actual operation, when the worker starts the motor 3 to rotate counterclockwise, the gear 4 rotates counterclockwise, the rack 9 engaged with the gear 4 moves leftward, the rack 9 drives the horizontal movable rod 8 to move leftward, the horizontal movable rod 8 drives the extrusion plate 17 to move leftward, the extrusion plate 17 moves leftward, the two movable small extrusion wheels 165 are extruded to drive the two movable extrusion rods 162 in the two extrusion sliding sleeves 161 to move downward, the two elastic extrusion members 163 compress downward, and the two movable extrusion rods 162 drive the printing module 18 to move downward to contact with the helmet. The ink on the printing module 18 is uniformly applied by the applying wheel 156, and the printing module 18 in contact with the helmet will automatically print the characters and patterns applied by the ink on the surface of the helmet, so as to complete the applying and printing operation.

Further, as shown in fig. 5 and 6, the ink jet printing device further includes a storage box 19, a material leaking pipe 20, a material discharging movable rod 21, a material discharging elastic member 22, a material discharging sliding sleeve 23, a fixing block 24, a material discharging roller, a round rod 26 and a material discharging convex block 28, wherein the storage box 19 is installed on a side surface of the mounting plate 2, the material leaking pipe 20 for flowing ink into the printing module 18 is arranged on a bottom side surface of the storage box 19, the material discharging convex block 28 is arranged on the extrusion plate 17, the material discharging convex block 28 is located on the front side of the extrusion plate 17, the material discharging movable rod 21 is fixedly installed on the bottom side surface of the storage box 19, the material discharging sliding sleeve 23 is arranged at one end of the material discharging movable rod 21 close to the extrusion plate 17, the material discharging elastic member 22 is arranged between the front end of the material discharging sliding sleeve 23 and the front end of the material discharging movable rod 21, the material discharging movable rod 21 passes through the material discharging elastic member 22, in this embodiment, the material discharging elastic member 22 is a material discharging spring, the bottom side fixed mounting of unloading sliding sleeve 23 has a fixed block 24, the one end rotary type that fixed block 24 is close stripper plate 17 is provided with unloading steamboat 25, the bottom side of fixed block 24 is provided with two parallel design's round bar 26, and two round bars 26 are located the rear side of hourglass material pipe 20, two the bottom of round bar 26 is provided with the fixed block 24 that is arranged in controlling the printing ink outflow in the hourglass material pipe 20 with the contact of hourglass material pipe 20.

In actual operation, when a worker starts the motor 3 to rotate anticlockwise, the gear 4 rotates anticlockwise, the rack 9 meshed with the gear 4 moves leftwards, the rack 9 drives the transverse movable rod 8 to move leftwards, the transverse movable rod 8 drives the extrusion plate 17 to move leftwards, the extrusion plate 17 moves leftwards to drive the blanking bump 28 to move leftwards, the blanking bump 28 is in contact with the blanking roller, the blanking roller is extruded by the blanking bump 28 to retract inwards, the blanking bump 28 drives the fixed block 24 to move towards one side of the storage box 19, the round rod 26 drives the blanking check block 27 to move towards one side of the storage box 19 at the moment, the blanking check block 27 is separated from one end of the material leakage pipe 20, ink in the storage box 19 falls into the groove body on one side of the printing module 18 along the material leakage pipe 20, and the ink in the groove body automatically flows onto the printing module 18. The printing ink can easily flow to the printing module 18, the trouble that the printing ink is poured into the groove body on one side of the printing module 18 manually and the unevenness of the printing ink poured into the groove body manually are avoided, and the printing ink is saved and the neatness of the working table surface is kept. The extrusion plate 17 moves rightwards to drive the blanking lug 28 to be not contacted with the blanking roller any more, the fixed block 24 moves towards one side of the mounting plate 2 to reset, the round rod 26 drives the blanking stop block 27 to move towards one side of the mounting plate 2 to reset, at the moment, the blanking stop block 27 is contacted with one end of the leakage pipe 20, and the ink of the leakage pipe 20 stops flowing out.

Further, referring to fig. 7, the device further includes a connecting bar 29 and a movable elastic member 30, two connecting bars 29 are disposed between two sets of the mounting rods 155, the two connecting bars 29 are provided with the movable elastic member 30 connected to the end of the guide rod 152, and in this embodiment, the movable elastic member 30 is a movable spring.

In actual operation, because the small extrusion wheel 14 moves leftwards along the arc-shaped plate 5, the cylindrical movable rod 12 moves upwards and downwards, when the cylindrical movable rod 12 moves upwards, the three elastic members 153 are in a stretching state, the three elastic members 153 drive the connecting arm 151 to move upwards, at this time, the two sets of mounting rods 155 drive the two smearing wheels 156 to move close, the movable elastic member 30 is in a compressing state, when the cylindrical movable rod 12 moves downwards, the three elastic members 153 are in a compressing state, the three elastic members 153 drive the connecting arm 151 to move downwards, at this time, the two sets of mounting rods 155 drive the two smearing wheels 156 to move apart, and the movable elastic member 30 is in a stretching state. The guide rod 152 and the connecting strip 29 are connected through the two movable elastic pieces 30, so that the close contact degree of the two smearing wheels 156 and the printing module 18 can be better ensured, and the printing effect of printing and smearing of the safety helmet is better.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (2)

1. The utility model provides a safety helmet printing device which characterized by: comprises a frame, a mounting plate, a motor, a gear, an arc plate, a vertical arm, a fixed sliding sleeve, a transverse movable rod, a rack, a first elastic part, a cylindrical sliding sleeve, a cylindrical movable rod, a second elastic part, a small extrusion wheel, an ink coating mechanism, an extrusion plate and a printing module, wherein the mounting plate is arranged on the frame, the motor is arranged on one side surface of the mounting plate, the gear is arranged on an output shaft of the motor through a rotating shaft, the arc plate is arranged on one side surface of the mounting plate, two vertical arms are arranged on two sides of the arc plate, two fixed sliding sleeves are arranged at one ends of the vertical arms, the transverse movable rod is arranged in the fixed sliding sleeves in a sliding manner, the rack meshed with the gear is arranged at one end of the transverse movable rod, one elastic part is arranged between one side of the fixed sliding sleeve and one end of the transverse movable rod, and the transverse movable rod passes through the first elastic part, a cylindrical sliding sleeve is arranged on the transverse movable rod, a cylindrical movable rod is arranged in the cylindrical sliding sleeve in a sliding mode, an elastic part II is arranged between one end of the cylindrical sliding sleeve and one end of the cylindrical movable rod, the cylindrical movable rod penetrates through the elastic part II, an extrusion small wheel which is in contact with the arc-shaped plate is arranged at one end of the cylindrical movable rod, an ink coating mechanism is arranged at the other end of the cylindrical movable rod, an extrusion plate is arranged at the other end of the transverse movable rod, an extrusion mechanism is arranged on one side face of the extrusion plate, and a printing module which is positioned above the rack is arranged at one end of the extrusion mechanism;

the ink coating mechanism comprises a connecting arm, a guide rod, an elastic piece III, a rotating rod, an installation rod and coating wheels, wherein the connecting arm is arranged at one end of the cylindrical movable rod, the elastic piece III is arranged at one end of the cylindrical movable rod, a guide hole is formed in one end of the connecting arm, the guide rod is arranged in the guide hole in a sliding mode, one end of the guide rod is connected with the elastic piece III, a round hole is formed in the other end of the guide rod, the rotating rod is arranged in the round hole in a rotating mode, the two ends of the rotating rod are rotatably connected with the two installation rods which are designed in parallel, the two coating wheels are rotatably arranged at one ends of the two installation rods, and the two coating wheels are in contact with one side face of the printing module;

the extrusion mechanism comprises an extrusion sliding sleeve, an extrusion movable rod, an extrusion elastic part, an installation block and a movable small wheel, wherein the extrusion sliding sleeve is arranged on one side face of the fixed sliding sleeve, the extrusion movable rod is arranged in the extrusion sliding sleeve in a sliding mode, the installation block is arranged at one end of the extrusion movable rod, the extrusion elastic part is arranged between the installation block and one end of the extrusion sliding sleeve, the extrusion movable rod penetrates through the extrusion elastic part, and the movable small wheel which is in contact with one side face of the extrusion plate is arranged at one end of the installation block;

still including storage case, hourglass material pipe, unloading movable rod, unloading elastic component, unloading sliding sleeve, fixed block, unloading gyro wheel, round bar and unloading lug, a side at the mounting panel is installed to the storage case, a side of storage case is provided with the hourglass material pipe, be provided with an unloading lug on the stripper plate, an unloading movable rod is installed to a side of storage case, the one end of unloading movable rod is provided with the unloading sliding sleeve, be provided with unloading elastic component and unloading movable rod between the one end of unloading sliding sleeve and the one end of unloading movable rod and pass the unloading elastic component, a side of unloading sliding sleeve is provided with the fixed block, the one end rotary type of fixed block is provided with the unloading steamboat a side of fixed block is provided with two round bars, two the one end of round bar is provided with the fixed block that touches with the hourglass material pipe.

2. A printing apparatus for safety helmets according to claim 1, wherein: the mounting rod is characterized by further comprising connecting strips and movable elastic pieces, wherein two connecting strips are arranged between the two groups of mounting rods, and the connecting strips are provided with the movable elastic pieces connected with the end portions of the guide rods.

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